Abstract

The high‐energy and discrete γ‐ray spectra, as well as the charged particle
angular distribution have been measured in the reaction 105 MeV 18O+28Si using the EUROBALL IV, HECTOR and EUCLIDES arrays in order to investigate the predicted Jacobi shape transition in light nuclei. A comparison of the GDR line shape data with the predictions of the thermal shape fluctuation model, based on the most recent rotating liquid drop LSD calculations, shows evidence for such Jacobi shape transition in hot, rapidly rotating 46Ti. The found narrow low‐energy component in the GDR line shape is interpreted as the consequence both of the elongated shape and of the Coriolis effect.